New Techniques for Future AcceleratorsMario Puglisi, Stanislao Stipcich, Gabriele Torelli Springer US, 1987 M12 31 - 283 páginas |
Contenido
Overview of Linear Collider Studies | 1 |
Principles of BeatWave Accelerators | 15 |
Wake Field Acceleration 29 | 29 |
Derechos de autor | |
Otras 13 secciones no mostradas
Otras ediciones - Ver todas
New Techniques for Future Accelerators Mario Puglisi,Stanislao Stipcich,Gabriele Torelli Vista previa limitada - 2013 |
New Techniques for Future Accelerators Mario Puglisi,Stanislao Stipcich,Gabriele Torelli Vista de fragmentos - 1987 |
New Techniques for Future Accelerators Mario Puglisi,Stanislao Stipcich,Gabriele Torelli Sin vista previa disponible - 1987 |
Términos y frases comunes
accelerating field accelerating gradient amplitude approximation assumed axis beam current beam energy beam power beamstrahlung bunch length cavity CERN charge cost damping ring density dipole drive beam drive linac effect efficiency emittance growth energy spread equation factor focusing fraction Free Electron Laser frequency function group velocity high energy IEEE Trans INFN initial interaction klystron Lasertron limit Linear Accelerator linear collider longitudinal low energy luminosity magnetic field main linac maximum microwave mode MV/m nonlinear Nucl number of particles obtained operating oscillations parameters Particle Accelerators peak power phase photocathode plasma ponderomotive force power source proton pulse quadrupole quantum radiation radius ratio resonant SLAC space charge space-charge spherical bunch stored energy superconducting synchrotron synchrotron radiation Table TeV collider transfer structure transverse undulator velocity voltage Wake Field wave waveguide wavelength wiggler